The Messina Strait is a c. 3-8 km-wide and 40 km-long extensional area that connects the Tyrrhe-nian Sea with the Ionian Sea (Mediterranean Sea), and where tectonics, oceanographic and erosive-depositional downslope processes strongly interact with each other. Based on the analysis of high-resolution multibeam data, we present an updated morphosedimentary framework that reveals a complex seabed morphology, character-ized by a variety of features linked to bottom currents and downslope processes. In particular, we recognize a suite of large-to medium-scale erosive and depositional features, related to different bottom currents (e.g. reverse tidal flows, residual flows, internal waves) acting over diverse time periods. Large-scale bottom-current features are represented by contourite drifts and channels developed over long periods (more than thousands of years). Medium-scale features formed during shorter time periods, and include scours, furrows, transverse ridges (pinnacles) and narrow longitudinal bodies in the sill sector, along with several sand-wave fields, located at greater depths on the Ionian and Tyrrhenian sides of the Messina Strait. Downslope processes encompass channelized features originated by sedimentary gravity flows, coarse-grained aprons and fans, and submarine landslides. They mostly occur along the margins of the strait and become predominant in the southern exit where the axial Messina canyon and its tributaries are present. Overall, our study shows that the Messina Strait is a fruitful area in which to investigate the interaction between recent erosive-depositional sedimentary and oceanographic processes, also modulated by sea-level fluctuations, during the last eustatic cycle. Moreover, the observed seabed morphologies and the associated processes provide insights into interpreting similar features in modern and ancient similar straits and seaways.
Large-and medium-scale morphosedimentary features of the Messina Strait: insights into bottom-current-controlled sedimentation and interaction with downslope processes
Martorelli E;Bosman A;Falese F G;
2023
Abstract
The Messina Strait is a c. 3-8 km-wide and 40 km-long extensional area that connects the Tyrrhe-nian Sea with the Ionian Sea (Mediterranean Sea), and where tectonics, oceanographic and erosive-depositional downslope processes strongly interact with each other. Based on the analysis of high-resolution multibeam data, we present an updated morphosedimentary framework that reveals a complex seabed morphology, character-ized by a variety of features linked to bottom currents and downslope processes. In particular, we recognize a suite of large-to medium-scale erosive and depositional features, related to different bottom currents (e.g. reverse tidal flows, residual flows, internal waves) acting over diverse time periods. Large-scale bottom-current features are represented by contourite drifts and channels developed over long periods (more than thousands of years). Medium-scale features formed during shorter time periods, and include scours, furrows, transverse ridges (pinnacles) and narrow longitudinal bodies in the sill sector, along with several sand-wave fields, located at greater depths on the Ionian and Tyrrhenian sides of the Messina Strait. Downslope processes encompass channelized features originated by sedimentary gravity flows, coarse-grained aprons and fans, and submarine landslides. They mostly occur along the margins of the strait and become predominant in the southern exit where the axial Messina canyon and its tributaries are present. Overall, our study shows that the Messina Strait is a fruitful area in which to investigate the interaction between recent erosive-depositional sedimentary and oceanographic processes, also modulated by sea-level fluctuations, during the last eustatic cycle. Moreover, the observed seabed morphologies and the associated processes provide insights into interpreting similar features in modern and ancient similar straits and seaways.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.